@inproceedings{LinNurcanRohleder,
author = {Lin, Jing and Nurcan, Selmin and Rohleder, Clotilde},
title = {Material Management in LCA Integrated PLM},
series = {IEEE International Conference on Engineering, Technology and Innovation (ICE/ITMC), 17-20 June 2018, Stuttgart},
isbn = {978-1-5386-1469-3},
doi = {10.1109/ICE.2018.8436374},
pages = {9},
abstract = {It is widely recognized that sustainability is a new challenge for many manufacturing companies. In this paper, we tackle this issue by presenting an approach that deals with material and substance compliance within Product Lifecycle Management in a complex value chain. Our analysis explains why, how and when sustainable manufacturing arises, and it identifies, quantifies and evaluates the environmental impact of a new product. We propose (I) a Life Cycle Assessment tool (LCA) and (II) a model to validate this approach and evaluate the risk of noncompliance in supply chain. Our LCA approach provides comprehensive information on environmental impacts of a product. Product and materials cycles are parallel and intersecting, making it challenging to integrate Material Selection Process across Product Lifecycle Management, Integration of LCA with PLM. We provide only a foundation. Further research in systems engineering is necessary. LCA is sensitive to data quality. Outsourcing production and having problems in supplier cooperation can result in material mismatch (such as property, composition mismatching) in the production process due to that may cause misleading of LCA results. This paper also describes research challenges using riskbased due diligence.},
language = {en}
}
@inproceedings{KusumahSalinesiRohleder,
author = {Kusumah, Indra and Salinesi, Camille and Rohleder, Clotilde},
title = {New Approach for Supporting Future Collaborative Business in Automotive Industry},
series = {IEEE International Conference on Engineering, Technology and Innovation (ICE/ITMC), 17-20 June 2018, Stuttgart, Germany},
isbn = {978-1-5386-1469-3},
doi = {10.1109/ICE.2018.8436382},
pages = {9},
abstract = {Product development and product manufacturing are entering a new era, namely an era where engineering tasks are executed under collaboration of all involved parties. Engineers and potential customers work together mainly in a virtual world for the design and realization of the product. We address this so called "crowdsourcing" trend in the automotive industry that lowers cost and accelerates production of new car. Current practice and prior studies fail to handle data management and collaboration aspects in sufficient detail. We propose a PLM based crowdsourcing platform that applies best practices to the established approach and adapt it with new methods for handling specific requirements. Our work provides a basis for establishing an improved collaboration platform to support a Gig Economy in the automotive industry.},
language = {en}
}